Operating element for the engaging and extraction of planar sub-assemblies with combined displays/switching element in said operating lever, front element for a planar sub assembly with operating element and sub-assembly support for locating planar sub-assemblies

ABSTRACT

The invention relates to an operating element for the engaging and extraction of a planar sub-assembly ( 2 ), with an end-piece ( 1 ), prepared for connection to a planar sub-assembly ( 2 ). An operating lever ( 4 ), rotatably mounted on the end-piece ( 1 ), comprises at least one grip section ( 5 ) and a locking element ( 6 ) which may be displaced, in particular shifted between at least two switch positions (A, B), whereby in a first switch position (A) the operating lever ( 4 ) is held in a state with the planar sub-assembly in an engaged position and in a second switch position (B) the operating lever is released for extraction. The operating lever ( 4 ) comprises at least one combined display/switching element ( 7 ).

[0001] The invention relates to an actuating element for levering a PC board in and out, having the characteristics of the preamble of claim 1. The invention further relates to a front system for a PC board, having at least one such actuating element, an associated PC board, as well as a board support for receiving such PC boards with a front system in a manner in which they can be levered in and out.

[0002] An actuating element with an end piece for levering a PC board in and out is known as the prior art from the Utility Patent Application 299 22 725.1 (Siemens), which is prepared for being connected with a PC board and has an actuating lever which is rotatably seated on the end piece.

[0003] Such PC boards customarily have electrical indicator elements which display, for example, the operational state of an operating element of the front board and in this case are customarily separately integrated into the front plate of the front board. A separate installation space is required for this.

[0004] Confirmation Copy

[0005] The object of the invention is based on offering an actuating element for levering a PC board in and out, which has an indicator and operating element which is attached in a particularly space-saving manner. It is moreover intended to offer an associated front system for such a PC board, a PC board with such a front system, as well as a board support for receiving such PC boards in a manner in which they can be levered in and out.

[0006] In connection with the actuating element, this object is attained by means of the features of the characterizing portion of claim 1 in connection with the features of the preamble. Advantageous embodiments of the actuating element are described in dependent claims 2 to 14. In connection with the front system, the object is attained by means of the characteristics of claim 15, in connection with the PC board by means of the characteristics of claim 16, and in connection with the board support by means of the characteristics of claim 17.

[0007] The actuating element in accordance with the invention has at least one combined electrical indicator/operating element. The indicator/operating element of the invention is attached in a structurally space-saving manner in the actuating lever as a combined element. Customarily a separate indicator element is provided, for example in the front plate of the PC board, and the operating element is integrated in the actuating element separately from such an indicator element. Therefore in accordance with the prior art it is necessary to separately mount the indicator and the operating element. In accordance with the invention it is now possible to attach the combined indicator/operating element to the actuating lever in an easy to assemble and structurally space-saving manner.

[0008] The indicator/operating element has an indicator sub-element, in particular an LED component, as well as an operating sub-element. The indicator sub-element and the operating sub-element can be connected with each other in various ways and can be, for example, attached to each other in a module-like manner. Because of this it is possible to exchange or replace individual indicator sub-elements and operating sub-elements.

[0009] The combined indicator/operating element is advantageously partially or wholly integrated into the locking element of the actuating lever, so that there is a reduced distance from current supply contacts of the PC board.

[0010] In accordance with a further advantageous embodiment, the combined indicator/operating element is adjustably arranged in the locking element, in particular it is displaceably attached to the locking element. In this way the combined indicator/operating element of the invention can be displaced together with the locking element into the operating positions A and B of the latter.

[0011] If the operating sub-element of the combined indicator/operating element has an operating lever, the latter is actuated, in particular in the course of displacing the locking element, in one operating position, and is relieved in the other operating position. In the course of levering the actuating lever out, the PC board can initially be switched into the passive state by displacing the locking element, for example in a rear operating position B. Thereafter, because of the simultaneous unlocking of the actuating lever in this operating position of the locking element, turning of the actuating lever is possible for levering out the PC board at the end.

[0012] In the actuated state, the operating lever of the operating sub-element advantageously rests against a stop, in particular a fixed one, of the actuating lever. A swivel pin of the actuating lever seated in a bore can be used as such a stop. This swivel pin is positionally stable in respect to the displaceable locking element, so that an operating sub-element of the combined indicator/operating element, which is displaced along with the locking element, is at different distances from the stationary swivel pin, and therefore an operating lever on the operating sub-element can be actuated in a position of the locking element close to the swivel pin and can be relieved in a remote position.

[0013] The invention is explained in greater detail by means of exemplary embodiments in the drawings. Shown are in:

[0014]FIG. 1, a perspective lateral view of a basic embodiment of an actuating element in accordance with the prior art,

[0015]FIG. 2, a lateral plan view on a front system for a PC board with an actuating element in accordance with the prior art in FIG. 1,

[0016]FIG. 3, a sectional representation of a schematic embodiment of an actuating element of the invention with the operating element actuated, and

[0017]FIG. 4, a sectional representation of a schematic embodiment of an actuating element of the invention in accordance with FIG. 3 with the operating element relieved.

[0018]FIG. 1 shows an actuating element in accordance with the prior art for levering in and out a PC board 2, which has an end piece 1 for connection with a PC board 2 and a front plate 3 (also see FIG. 2).

[0019] In this case the actuating element rests on a lower transverse rail 10 of a board support and has as its main components an actuating lever 4, an end piece 1 and a front plate 3 which, for reasons of clarity, is not represented in FIG. 1. Here the end piece 1 has a central supporting function since, for one, it is used as a support for an actuating lever 4, which is rotatably seated in a bore 14. On the other hand, it can also be used for supporting the lower end of the front plate 3, which for this purpose is advantageously inserted into a groove 22.

[0020] The connection between the lower end piece 1 and the front lower corner of the PC board 2 (see FIG. 2) preferably takes place via a retaining block 17 by means of a screw engaging a bore 34.

[0021] Moreover, it is possible to attach still further components to such an end piece 1. Thus, the end piece 1 represented in FIG. 1 contains a coding block 13, into which coding chambers 27 for inserting coding pins, not represented, have been cut. These can engage coding chambers attached on the side opposite to the lower transverse rail 10, which are equipped with complementarily coded coding pins. It is possible here to assure that only a defined selected PC board 2 can be positioned in a plug-in position of a board support. Finally, there is also a guide pin 15 provided which, after engagement in an oppositely located guide bore, not represented, assures a skew-free correct insertion of the PC board 2.

[0022] The actuating lever 4 is used for levering the PC board into or out of the respective plug-in position, which can be operated by means of actuating the handle portion 5 when placing the locking element 6 into the operating position (B).

[0023] When levering out, the actuating lever 4 must be pushed down, so that at least one levering protrusion 9, projecting at the underside, can be supported on a front edge 12 of the lower transverse rail 10. In the opposite way, when levering in, the actuating lever 4 must be pushed up, so that a levering protrusion 8, also projecting at the underside, can be supported in the interior of at least one engagement depression 11, which is also located in the area of the front edge 12 of the lower transverse rail 10.

[0024] Customarily means are also provided on the end piece 1, through which the actuating lever 4 can be fixed in place in the appropriate position when the completely inserted state of the PC board into the board support has been reached. This inserted state is represented in FIG. 1. For this purpose, the actuating lever 4 advantageously has a detent protrusion 24 on it top, which is oriented in the direction toward the end piece 1, is resilient and extends upward, and extends behind a detent edge 23 on the end piece 1, which is oriented in the direction toward the actuating lever 4 and extends downward.

[0025] In the same way a corresponding arrangement of an upper end piece 3 with an upper actuating lever 4 rotatably attached to it is attached in the corner area of the PC board 2 represented in FIG. 2. For levering in and out, the lever then engages a corresponding transverse rail of a PC board (not represented).

[0026] An operating element 25 is integrated into the lower or the upper end piece of the actuating element in accordance with the prior art in FIG. 1 and FIG. 2, which is actuated by means of the actuating lever 4 when it is in the fixed position (operating position A). In this way it is possible to electrically isolate the PC board 2 attached to the actuating lever 4, for example by activating its current supply. Inversely, it is also possible to switch the PC board 2 into an electrically passive state in that, at the moment of levering out the PC board 2, the engagement of the actuating lever 4 with the operating element 25 integrated into the end piece 1 is terminated, and the electrical current supply of the PC board 2 is again placed in the passive state by this release of the operating element 25.

[0027] The operating element 25 is seated in a receiving slot 28, which extends as far as the detent edge 23 of the end piece 1. Thus, an operating portion of the operating element 25, for example an operating lever 29, projects into the area below the downward pointing detent edge 23 and, when the fixed state of the actuating lever 4 (operating position A) has been reached, is actuated by the operating slide 26 of the locking element 6 of the actuating lever 4 when the actuating lever 4 is in the position A. The locking element 6 is connected with the operating slide 26 via a connecting element 30.

[0028] When the actuating lever 4 is displaced into the position B (see FIG. 2), the operating lever 29 is relieved and the operating element 25 is switched into a second operating state, wherein the PC board 2 is placed in a passive state, in particular.

[0029] Thereafter the actuating lever 4 can be levered out in that its handle portion 5 is moved downward—in the direction toward the transverse rail 10—because of which the detent protrusion 24 of the actuating lever 4 is elastically released from the detent edge 23 of the end piece 1. The operating element 25 can be activated or passivated by the displacement of the locking element 6 between the positions A and B in FIG. 2, and this independently of a complete release of the actuating element 4 by means of the described downward levering out of the actuating lever 4 for removing the PC board 2 from the board support.

[0030] Further details for constructing the actuating element of the prior art in accordance with FIGS. 1 and 2, and in particular the functioning of the locking element 6, ensue from the Utility Model Application 299 22 725.1 (Siemens), the content of whose disclosure is explicitly incorporated into this application document.

[0031] The integrated operating element 25 can be advantageously electrically connected with the PC board 2 via a cable connection or plug-in cable connection, which can be connected to its connecting contacts 16.

[0032] In this way it is possible to actuate the operating element 25 in an always assured and wear-free manner by means of the actuating element if the operating means of the operating element 25 have merely a very short operating path.

[0033] Since the active-passive operating function is completely integrated into the actuating element, users of the front system have no restrictions at all regarding the positioning of components on a PC board equipped with a front system of this type. In particular, no dimensionally accurate position fastenings regarding electrical connections for the operating element are required there.

[0034] To the extent that the structure of the actuating element in accordance with FIGS. 3 and 4 corresponds to the structure of the actuating element in accordance with the prior art in FIGS. 1 and 2, identical reference symbols were employed which, without supplemental explanations, also have the functions represented in the description of the drawings of FIG. 1 and FIG. 2.

[0035]FIG. 3 is a sectional representation of an actuating element in accordance with the invention (without the transverse rail 10, the PC board 2, the front plate 3 in accordance with FIGS. 1 and 2), having a combined indicator/operating element 7 received in the locking element 6, and with an operating sub-element 19 and an indicator sub-element 20. The indicator/operating element 7 is received in a cutout 18 of the locking element 6. In this case the indicator sub-element 20 is attached directly to the operating sub-element 19 and is advantageously electrically connected with the indicator sub-element 20 by means of contacts in the interior.

[0036] In FIG. 3, the locking element 6 is in the operating position A, so that the indicator sub-element 20 of the combined indicator/operating element 7 rests against the edge 23 of the end piece 1. In this case the edge 23 of the end piece 1 can be used as a stop for the indicator sub-element 20, and therefore for the locking element 6.

[0037] In the operating position A of the locking element 6 represented in FIG. 3, the operating lever 29 of the operating sub-element 19 is actuated and rests against the swivel pin 31 of the actuating lever 4 received in a bore 14.

[0038] If now the locking element 6 has been brought into the operating position B (see FIG. 4), the resilient or elastic operating lever 29 of the operating sub-element 19 is relieved and no longer rests against the swivel pin 31. With this, the operating sub-element 19 has changed its operating state and has, for example, switched the PC board, not represented in FIGS. 3 and 4, passive. Thereafter the actuating element 4 can be levered out in the direction of rotation 32, because of which the detent projection 24 is pushed off downward and is released from engagement with the edge 23 of the end piece 1.

[0039] It is made possible in accordance with the invention that, prior to levering out the actuating lever 4 in the direction of rotation 32, a defined and precise switch to the passive state of the PC board 2 takes place by displacement of the locking element 6 into the operating position B, and therefore by changing over the operating sub-element 19 of the combined indicator/operating element 7.

[0040] The indicator sub-element 20 and/or the operating sub-element 19 of the combined indicator/operating element 7 have movable connecting contacts, known per se (for example contact rails), for a connection with connecting contacts stationarily arranged in the end piece 1 for the current supply with the PC board (not represented).

[0041] The indicator sub-element 20 of the combined indicator/operating element 7 is in particular embodied as an LED component and can be used for indicating operational states of the operating lever 29 of the operating sub-element 19.

[0042] Essentially the surface 21 of the indicator sub-element 20 ends flush with the surface 30 of the locking element 6. In this way the combined indicator/operating element 7 is received in a recessed manner in the locking element 6.

[0043] For fastening the combined indicator/operating element 7, the operating sub-element 19 can be connected with a contact area 33 of the locking element 6. In the course of a displacement of the locking element 6 from the operating position A to B and back it is possible to transmit the movement of the locking element 6 to the combined indicator/operating element 7 via this contact area 33. 

1. An actuating element for levering a PC board (2) in and out, having a) an end piece (1), which has been prepared for connection with the PC board (2), b) an actuating lever (4), which is rotatably seated on the end piece (1), and at a minimum comprises: b1) a handle portion (5), and b2) a locking element (6), which can be moved, in particular displaced, between at least two operating positions (A, B), and which b22) in a first operating position (A) maintains the actuating lever (4) in a first position, which corresponds to a levered-in state of the PC board (2), and which b23) releases the actuating lever (4) in a second operating position (B), characterized in that the actuating lever (4) has at least one combined indicator/operating element (7).
 2. The actuating element in accordance with claim 1, characterized in that the combined indicator/operating element (7) is attached to the locking element (6).
 3. The actuating element in accordance with claim 2, characterized in that the combined indicator/operating element (7) is partially integrated into the locking element (6).
 4. The actuating element in accordance with claim 2, characterized in that the combined indicator/operating element (7) is completely integrated into the locking element (6).
 5. The actuating element in accordance with one of the preceding claims, characterized in that the combined indicator/operating element (7) is placed in a cutout (18) of the locking element (6).
 6. The actuating element in accordance with one of the preceding claims, characterized in that the combined indicator/operating element (7) and the locking element (6) are arranged so that they can be switched between two operating positions (A, B).
 7. The actuating element in accordance with one of the preceding claims, characterized in that the indicator/operating element (7) has an operating sub-element (19) with an operating lever (29).
 8. The actuating element in accordance with claim 7, characterized in that the operating lever (29) of the operating element (19) is actuated when the locking element (6) is in the operating position (A), and is released when the locking element (6) is in the operating position (B).
 9. The actuating element in accordance with one of the preceding claims, characterized in that the combined indicator/operating element (7) has an indicator sub-element (20).
 10. The actuating element in accordance with claim 9, characterized in that the indicator sub-element (20) has a surface (21) which essentially terminates flush with a surface (30) of the locking element (6).
 11. The actuating element in accordance with one of claims 9 or 10, characterized in that the indicator sub-element (20) is electrically connected with the operating sub-element (19).
 12. The actuating element in accordance with one of claims 7 to 11, characterized in that in the actuated state the operating lever (29) of the operating sub-element (19) rests against a detent of the actuating lever (4).
 13. The actuating element in accordance with claim 12, characterized in that the detent is in a stationary position in respect to the displaceable locking element (4).
 14. The actuating element in accordance with one of claims 12 or 13, characterized in that the detent is constituted by a swivel pin (31) received in a bore (14) of the actuating lever (4).
 15. A front system for a PC board (2), having a front plate (3) and at least one actuating element in accordance with one of the preceding claims 1 to 14, which is attached to one end of the front plate (3).
 16. A PC board (2), having a front system in accordance with claim
 15. 17. A board support, which is designed in such a way that PC boards (2) with a front system in accordance with claim 15 can be levered in and out. 